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參數(shù)資料

型號(hào)：	MAX1718
廠商：	Maxim Integrated Products, Inc.
元件分類：	數(shù)字信號(hào)處理
英文描述：	Replaced by TMS320VC5506 : Digital Signal Processors 100-LQFP -40 to 85
中文描述：	筆記本電腦CPU降壓型控制器，用于Intel移動(dòng)電壓定位(IMVP-II)
文件頁數(shù)：	26/35頁
文件大小：	700K
代理商：	MAX1718

Notebook CPU Step-Down Controller for Intel

Mobile Voltage Positioning (IMVP-II)

______________________________________________________________________________________

age rating rather than by capacitance value (this is true

of tantalums, OS-CONs, and other electrolytics).

When using low-capacity filter capacitors such as

ceramic or polymer types, capacitor size is usually

determined by the capacity needed to prevent V

SAG

and V

SOAR

from causing problems during load tran-

sients. Generally, once enough capacitance is added

to meet the overshoot requirement, undershoot at the

rising load edge is no longer a problem (see the V

SAG

equation in the

Design Procedure

section). The amount

of overshoot due to stored inductor energy can be cal-

culated as:

where I

PEAK

is the peak inductor current.

Output Capacitor Stability

Considerations

Stability is determined by the value of the ESR zero rela-

tive to the switching frequency. The voltage-positioned

circuit in this data sheet has the ESR zero frequency low-

ered due to the external resistor in series with the output

capacitor ESR, guaranteeing stability. For a voltage-posi-

tioned circuit, the minimum ESR requirement of the output

capacitor is reduced by the voltage-positioning resistor

value.

The boundary condition of instability is given by the fol-

lowing equation:

ESR

+ R

DROOP

)

OUT

≥

1 / (2

)

where R

DROOP

is the effective value of the voltage-

positioning resistor (Figure 1, R8). For good phase mar-

gin, it is recommended to increase the equivalent RC

time constant by a factor of two. The standard applica-

tion circuit (Figure 1) operating at 300kHz with C

OUT

1320μF, R

ESR

= 2.5m

, and R

DROOP

= 5m

easily

meets this requirement. In some applications, the C

OUT

and R

DROOP

values are sufficient to guarantee stability

even if R

ESR

= 0.

The easiest method for checking stability is to apply a

very fast zero-to-max load transient and carefully

observe the output voltage ripple envelope for over-

shoot and ringing. Don

’

t allow more than one cycle of

ringing after the initial step-response under/overshoot.

Input Capacitor Selection

The input capacitor must meet the ripple current

requirement (I

RMS

) imposed by the switching currents

defined by the following equation:

For most applications, nontantalum chemistries (ceramic

or OS-CON) are preferred due to their resistance to

inrush surge currents typical of systems with a switch

or a connector in series with the battery. If the

MAX1718 is operated as the second stage of a two-

stage power-conversion system, tantalum input capaci-

tors are acceptable. In either configuration, choose an

input capacitor that exhibits less than +10

C tempera-

ture rise at the RMS input current for optimal circuit

longevity.

Power MOSFET Selection

Most of the following MOSFET guidelines focus on the

challenge of obtaining high load-current capability

(>12A) when using high-voltage (>20V) AC adapters.

Low-current applications usually require less attention.

The high-side MOSFET must be able to dissipate the

resistive losses plus the switching losses at both

IN(MIN)

and V

IN(MAX)

. Calculate both of these sums.

Ideally, the losses at V

IN(MIN)

should be roughly equal

to the losses at V

IN(MAX)

, with lower losses in between.

If the losses at V

IN(MIN)

are significantly higher than the

losses at V

IN(MAX)

, consider increasing the size of Q1.

Conversely, if the losses at V

IN(MAX)

are significantly

higher than the losses at V

IN(MIN)

, consider reducing

the size of Q1. If V

does not vary over a wide range,

the minimum power dissipation occurs where the resis-

tive losses equal the switching losses.

Choose a low-side MOSFET (Q2) that has the lowest

possible R

DS(ON)

, comes in a moderate-sized package

(i.e., two or more SO-8s, DPAKs or D

PAKs), and is rea-

sonably priced. Ensure that the MAX1718 DL gate dri-

ver can drive Q2; in other words, check that the dv/dt

caused by Q1 turning on does not pull up the Q2 gate

due to drain-to-gate capacitance, causing cross-con-

duction problems. Switching losses aren

’

t an issue for

the low-side MOSFET since it

’

s a zero-voltage switched

device when used in the buck topology.

MOSFET Power Dissipation

The high-side MOSFET power dissipation due to resis-

tance is:

Generally, a small high-side MOSFET is desired to

reduce switching losses at high input voltages.

However, the R

DS(ON)

required to stay within package

PD Q

sistive

OUT

LOAD

DS ON

(

)

RMS

LOAD

OUT

(

)

L I

SOAR

PEAK

OUT

≈

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相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
MAX1718BEEI	制造商:Maxim Integrated Products 功能描述:NOTEBOOK CPU STEP-DOWN CONTROLLER FOR INTEL M - Rail/Tube
MAX1718BEEI+	制造商:Maxim Integrated Products 功能描述:NOTEBOOK CPU STEP-DOWN CONTROLLER FOR INTEL MOBILE VOLTAGE - Rail/Tube
MAX1718BEEI-TG068	制造商:Rochester Electronics LLC 功能描述: 制造商:Maxim Integrated Products 功能描述:
MAX1718EEI	制造商:Maxim Integrated Products 功能描述:NOTEBOOK CPU STEP-DOWN CONTROLLER FOR INTEL M - Bulk
MAX1718EEI+	制造商:Maxim Integrated Products 功能描述:LDO CNTRLR STDN 0.6V TO 1.75V 28QSOP - Rail/Tube

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